ShareHeat transfer enhancement with condensation by surface rotation.
Author(s) : VASILIEV L. L., KHROLENOK V. V.
Type of article: Article
Summary
Process intensification relies on many unit operations on enhanced heat transfer. One technique for the enhancement of condensation heat transfer is the use of surface rotation. This is particularly effective in reducing the condensate film thickness. The formulae and relationships described are concerned with rotating discs and tubes, and can be used for developing advanced heat exchanger concepts.
Details
- Original title: Heat transfer enhancement with condensation by surface rotation.
- Record ID : 1994-2189
- Languages: English
- Source: Heat Recov. Syst. CHP - vol. 13 - n. 6
- Publication date: 1993/11
Links
See the source
Indexing
- Themes: Mass transfer
- Keywords: Heat transfer coefficient; Extended surface; Enhancement; Calculation; Tube; Heat transfer; Rotation; Film; Condensation
-
Convective heat transfer in rotating ribbed tubes.
- Author(s) : MORRIS W. D., RAHMAT ABADI K. F.
- Date : 1996/07
- Languages : English
- Source: International Journal of Heat and Mass Transfer - vol. 39 - n. 11
View record
-
Enhanced heat transfer in internal condensation...
- Author(s) : CAVALLINI A.
- Date : 2003
- Languages : English
- Source: Annual proceedings of the Institute of Refrigeration. 2003-2004 [CD-ROM].
View record
-
Predicting flow boiling heat transfer for refri...
- Author(s) : KANDLIKAR S. G., RAYKOFF T.
- Date : 1996/05/29
- Languages : English
- Source: Proceedings of the 2nd European Thermal-Sciences (EUROTHERM) and 14th UIT National Heat Transfer Conference 1996.
View record
-
Visualization of the effects of spiral angle on...
- Author(s) : OH S. Y., BERGLES A. E.
- Date : 2002
- Languages : English
- Source: ASHRAE Transactions. 2002 annual Meeting, Honolulu, Hawaii. Volume 108, part 2 + CD-ROM.
View record
-
Evaporative heat transfer and enhancement perfo...
- Author(s) : WEN M. Y., HSIEH S. S.
- Date : 1994/02
- Languages : English
- Source: International Journal of Heat and Mass Transfer - vol. 37 - n. 3
View record